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High throughput screening platform for high ethanol

a screening platform and high ethanol technology, applied in the field of highthroughput, can solve problems such as challenges that need further investigation, and achieve the effect of high throughput methods and rapid and efficient manner

Active Publication Date: 2010-06-17
SYNGENTA PARTICIPATIONS AG
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0006]Provided herein are high throughput methods for converting starch-containing plant material to ethanol, wherein the conversion process is performed at a small scale. This high-throughput screening platform permits the evaluation of the ethanol obtained from starch-containing plant material in a rapid and efficient manner.
[0010]The high throughput screening platform disclosed herein is suitable for rapid evaluation of various parameters of the starch-to-ethanol conversion process. One or more of these parameters can be modeled to achieve a desired fermentation product or to improve the efficiency of the starch-to-ethanol conversion process. Further, such a high throughput screening platform may be used to build a calibration model to calibrate for a testing device configured to quickly and non-destructively evaluate a sample biological material for ethanol yield.
[0013]This high throughput system of the present invention permits the small scale modeling of changes in the processes employed in a full sized ethanol plant. The consequences of changes in the processes or the inputs into these processes are captured within this high through put platform. Without directly mimicking the full scale of the processes within the specific ethanol plant, the present platform can incorporate the change with predictive results concerning the effect of the change in process and inputs within a specific plant. In some instance, the platform also comprises a liquefying step comprises heating the samples in a convected oven. The conversion of cellulosic or starch containing plant material into ethanol is impacted by efficiencies or inefficiencies of the liquefying and fermentation steps. With the present high throughput platform the liquefying step can be modeled for evaluation of the effects of pH, length of time or temperature, or some combination. This liquefying step can comprise addition of one or more starch-degrading enzymes, including alpha amylase. Starch degrading enzyme additions, or deletions are often modeled in the liquefying step. This platform provides a quick efficient model for evaluating the source of starch-degrading enzyme, the type of starch-degrading enzyme, the specific combination of starch-degrading enzymes, or any combinations.

Problems solved by technology

In this field, although ethanol production has been greatly improved by new technologies, there are still challenges that need further investigations.

Method used

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  • High throughput screening platform for high ethanol
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  • High throughput screening platform for high ethanol

Examples

Experimental program
Comparison scheme
Effect test

experiment 1

Component Loss of Fermentation Components Due to Pasteurization Step in the HTS Fermentation Platform

Research Objective

[0110]Research Hypothesis: In order for the high throughput fermentation platform to provide accurate ethanol yield data, the ferment must be arrested prior to analysis. To arrest the ferment the yeast must be killed to prevent fermentation from occurring beyond the specific fermentation time point of interest. One way in which the yeast may be killed is to pasteurize the ferment, a method used in the brewing industry. Pasteurizing the ferments in the 20 ml headspace vials for a period of 45 minutes arrests the fermentation. Utilizing pasteurization as a method to kill the yeast may also cause loss of fermentation components due to evaporation. The hypothesis of this experiment is that the loss of any components due to evaporative loss is consistent across all headspace fermentation vials.

[0111]Technical Approach: One-hundred and eight (108) fermentations are conduc...

experiment 2

Waxy Near Isogenic Inbred Lines (NILS) Study

Research Objective

[0128]Research Hypothesis: This study hypothesizes that a near isogenic inbred line (NILS) of the waxy trait with 100% amylopectins will result in a faster accumulation of soluble dextrins as compared to non-waxy NIL corn, which in theory will result in a faster fermentation reaction in a high throughput dry grind process.

[0129]Technical Approach: 120 fermentations will take place in 20ml headspace vials. The 120 fermentations are divided into 2 treatments with 10 reps per time point for 2 maize lines. The time points are 24, 48, and 72 hours. The 2 treatments are: 1) 30% solids and 3) 36% solids. Table Sample Matrix of Waxy Near-Isogenic Lines Study summarizes the treatment groups.

TABLESample Matrix of Waxy Near-Isogenic Lines StudyMaize LinesPedigreeSolidsTime PointRepsTotalWaxy NILC9RA30, 3624, 48, 72 hours10 / solid / time point60Non-waxy NILC930, 3624, 48, 72 hours10 / solid / time point60Project Total120

Work Plan: The sampl...

experiment 3

Headspace Analysis of a Fermented Sample

Research Objective: Determine if Headspace Gas Chromatography is a Viable Option for the Ethanol HTS Platform.

Research Hypothesis:

[0141]Headspace gas chromatography coupled with flame ionization detection has been identified in the literature as a common method used to determine blood alcohol content. This method of ethanol detection was applied to an alcoholic fermentation of maize in order to determine if the method was applicable for a high throughput screening platform. Included in the analysis were an ethanol sample, the analyte of interest, and an isopropanol sample, the intended internal standard for the proposed HTS method. The 2 alcohols were analyzed in order to determine if these could be resolved in a chromatogram.

[0142]Technical Approach: An Hewlett-Packard HP6890GC system with a Hewlett-Packard HP7694 headspace autosampler and an FID was used to analyze 3 sample materials. The 3 sample materials were: A) a 15% aqueous ethanol sta...

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Abstract

Provided herein are high throughput methods for converting starch-containing plant material to ethanol, wherein the conversion process is performed at a small scale. This high-throughput screening platform permits the evaluation of the ethanol obtained from starch-containing plant material in a rapid and efficient manner. The methods include obtaining a plurality of samples of starch-containing plant material and drying the samples to achieve a desired moisture level. The dried samples are liquefied under conditions sufficient to hydrolyze the starch-containing plant material to soluble dextrinized substrates. The liquefied samples are fermented in small volume headspace vials for a period of less than about 96 hours, and fermentation is terminated by pasteurization. Ethanol production is evaluated using headspace gas chromatography.

Description

REFERENCE TO RELATED APPLICATION[0001]This application claims the benefit of priority two U.S. Provisional Application Ser. No. 61 / 200,225 and 61 / 200,189 filed on Nov. 25, 2008.FIELD OF THE INVENTION[0002]This invention relates to high-throughput methods for identifying optimal compositions and conditions for ethanol production.BACKGROUND OF THE INVENTION[0003]Ethanol fermentation is a biological process in which organic material is converted by microorganisms to simpler compounds, such as sugars. These fermentable compounds are then fermented by microorganisms to produce ethanol and CO2. Ethanol has widespread application, including, as an industrial chemical, gasoline additive or straight liquid fuel. As a fuel or fuel additive, ethanol dramatically reduces air emissions while improving engine performance. As a renewable fuel, ethanol reduces national dependence on finite and largely foreign fossil fuel sources, while decreasing the net accumulation of carbon dioxide in the atmosp...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C12Q1/00C12P7/06C12M1/34
CPCG01N21/274G01N21/3554G01N21/359G01N21/85G01N30/88G01N21/3563G01N2021/8592G01N2030/8854G01N2030/8886Y02E50/17Y02E50/16G01N2021/8416Y02E50/10
Inventor ABBAS, JASONAUX, GEORGEBYRUM, JOENGUYEN, MYNOEL, KIRKSEYMOUR, MARK P.
Owner SYNGENTA PARTICIPATIONS AG
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